俞绍才，一级教授，欧洲科学院(Academia Europaea)院士，博士，博士生导师，浙江工商大学环境科学与工程学院院长、特聘教授。北京大学学士、硕士，美国北卡州立大学博士、杜克大学博士后、加州理工学院访问教授。曾任美国国家环保署大气模拟部联邦物理科学家、是大气模拟部研究和开发模拟气溶胶-灰霾-云-气候相互作用方法的首席研究员（Lead investigator)。1985年毕业于北京大学，获应用化学学士学位；1988年毕业于北京大学，获大气化学硕士学位；1999年毕业于美国北卡罗莱纳州立大学，获大气科学 （气象学）博士学位；1999年到2001年在美国杜克大学作博士后。1988年到1994年任厦门环保局环保工程师; 1999年到2001年任杜克大学副研究员； 2001年到2004年任美国国家环保署(U.S.EPA) / UCAR访问科学家；2004年到2009年任U.S. EPA/STC 高级科学家；2009年至2013 任美国国家环保署国家环境暴露研究实验室（NERL)大气模拟部物理科学家 (联邦政府)；2010年至今任中国科学院城市环境研究所客座教授。2012年至今任美国北卡罗莱纳州立大学客座教授; 2017年2月至今美国加州理工学院化学与化学工程学院访问教授。欧洲科学院(Academia Europaea)院士（elected in2022），英国皇家气象学会fellow（elected in 2011)。获美国国家环保署2011年银质奖章 (美国国家环保署的最高级别奖项),获美国国家环保署2011年科学与技术成就二等奖, 获美国国家环保署2011年科学与技术成就荣誉奖奖,获美国国家环保署2009, 2010, 2011,2012年特别成就嘉许奖。

    在世界顶级的三大综合性科学杂志(Nature, Science, PNAS)中, 以通讯作者在Nature (IF=69.5)上发表1篇, Science

(IF=63.7)上发表1篇及PNAS (IF=12.8) 上发表3篇, Cell的姊妹刊One Earth(IF=14.9)发表一篇，同时还在影响因子非常高的杂志如New England of Medicine (IF=176)、Environ. Chem. Letts (IF=13.5) 、Bull. Amer. Meteor. Soc. (IF=11.54)、Environ. Sci. & Tech (IF=11.3) 、 Atmos. Chem. Phys. (IF=7.2) 、 Geophys. Res. Letters (IF=5.6) 、 J. Geophys. Res.(IF=5.2)、Atmos. Environ. (IF=5.8)、环境科学学报等国内外学术刊物上发表同行评审的论文100多篇。根据google scholar,总被引频次为是4766。美国气象学会大气化学委员会委员（2013-今）；2003年法国EGS-AGU-EUG 联合大会VOC和二次有机碳小组召集人之一及分组主席 ;2001 年美国地球物理学会（AGU）年会气溶胶-云分组主席。担任国际学术刊物《 Atmos. and Clim. Sci 》 主 编 , 《 Environ. Chem. Lett. 》 副 主 编 ， 《 Sci. Rep. 》 (Published by Nature) 、《Atmosphere》、《Inter. J. of Applied Math. and Comput.》、《Inter. J. of Atmos. Sci.》等编委。

    主持或参与了国家自然科学基金面上项目、国家自然科学基金国际(地区)合作与交流项目、国家科技部支撑计划子项目、国家科技部重点研发计划项目课题、环保部及杭州市环保局的项目等10多项。主要从事对气溶胶-云-气候-能源的相互作用模型的参数化及发展美国国家环保局双向耦合的WRF-CMAQ模式空气质量模 式。 通过不同时间和空间尺度 (城市-区域-全球尺度) 的多元数值模拟研究大气污染-灰霾（气溶胶）-云-气候-能源的相互作用及雾霾的形成。主要学术贡献包括（1）关于海洋性低云的气溶胶间接效应定量研究表明：(a) 气溶胶间接效应导致的气候致冷效应要比先前的报道大的多；（b）气溶胶和气象要素可以解释海洋性低云辐射强迫95%的变化（c）发现在给定气象条件下（比如给定的云的几何厚度），云凝结核（CCN）浓度本身可以解释海洋低云辐射强迫的大部分变化（75%），这主要是通过影响低云云水路径和云量来影响云的辐射强迫。作共同通信作者该研究成果于2019年1月17日在国际顶级期刊《Science》上发表。(2) 在国际上首次提出了可用水来遏制中国的雾霾和大气污染的地球工程方法。Springer特为该论文发表英文，中文和德文新闻稿。超过1000多家世界媒体网站报道该论文的方法和结果 (如 sciencedaily, sciencecodex, natureworldnews, pbs, 国际财经日报, 中国日报, 香港先驱報,南華早報,中国气象局,中国科学院, 上海人民广播电台等)。（3）在国际上首次提出了应用增加空气湿度来减轻地面局部大气臭氧污染的水雾地球工程方法。（4）首次将模式预报的（或监测的）重灰霾数据（高浓度的PM2.5），混合受体模式和3-维气象-化学传输模式相结合建立了应对城市重度灰霾的精准大气污染控制方法；(5)提出在北美洲高平原北部, 与今天的弱酸性条件不同的是， 那个地区的云水在新生代中期经常是碱性的。（6）提出有机酸是森林地区 云凝结核来源，(7)提出来自不完全燃烧的碳黑是中国东部地区气候近几年变暖的主要原因，(8)研究了有机酸的天然来源并估计有机酸对中国南方酸雨的影 响。(9)对大气颗粒物在美国东部气候变化中的作用及其对整个美国空气质量的影响和控制对策均有独特的研究和贡献。

北京大学学士、硕士，美国北卡州立大学博士、杜克大学博士后、加州理工学院访问教授。

        2022: Elected as a member of the Academia Europaea.1999：Global Change Scholarship of American Meteorological Society. 2003:  Certificate of appreciation of U.S. EPA for his contribution to the science in the development and evaluation of the FY-03 release of the Community Multiscale AIR Quality (CMAQ) model to the OAQPS and the public.2011: Elected as a Fellow of the Royal Meteorological Society (UK). 2006-2009: President of Peking University Alumni Association of North Carolina (PKUAA-NC).2009: Special accomplishment recognition award of US EPA. Certificate of appreciation of U.S. EPA in recognition of contributions toward advancing the science in the Nation’s official air quality forecasting system. 2009: Special accomplishment recognition award (“S” Award) of U.S. EPA. 2010: Special accomplishment recognition award (“S” Award) of U.S. EPA. 2011: Special accomplishment recognition award (“S” Award) of U.S. EPA. 2011: Winner of Silver medal for superior service of 2011 U.S. EPA National honor awards (U.S. EPA's highest level award) For scientific leadership in developing and delivering integrated atmospheric modeling systems to inform policies that simultaneously address air quality, climate change, and energy issues. 2011:     Winner of the U.S. EPA’s 2011 Level II Scientific and Technological Achievement Awards (STAA) ($5000) for “Massive volcanic SO₂ oxidation and sulphate aerosol deposition in Cenozoic north America”.2011: Winner of the U.S. EPA’s 2011 Scientific and Technological Achievement Awards (STAA) Honorable Mentions for “Improving Atmospheric Chemistry Representation in the Community Multiscale Air-Quality Model and Analysis of the Impacts on Air Pollutants”. 2012: Superior accomplishment recognition award (“S” Award) of U.S. EPA. 2012: Complimentary EGU member. 2012: Review expert for MacArthur Genius Awards in USA. 2013: Award of 1000 talent plan program (Zhejiang, China). 2014: Excellence Award of the fourth Qian Xuesen Gold Award for urban studies (Hangzhou, China). 2015 and 2016: Communication review expert of young and middle-aged leading talents in scientific and technological innovation of the 10000 talents plan of the Ministry of science and Technology in China. 2015-present: Atmospheric Chemistry Committee member, America Meteorological Society. 2016: Review expert of key special research on air pollution causes and control technology of the Ministry of science and Technology. 2018 and 2021: Communication review expert of distinguished professor of Changjiang Scholar Award Program of the Ministry of Education. 2019: IAAM Award Lecture (Stockholm, Sweden). 2020, 2021, 2022: Review expert of Science Xplore Award. 2021: Members of review expert group for project review meeting of the National Major Research Plan Basic Research on the Causes and Response Mechanisms of Air Complex Pollution in China (NSFC, Beijing, June 16 to 18, 2021), 2022: Members of academic leading group for Major Project of National Natural Science Foundation of China Research on China's Regional / Global Integrated Numerical Chemical Weather Coupling Prediction and Reanalysis System (2021-2024).

Papers published or to appear in referred journals (*corresponding author):

My research efforts to date have led to 290 Publications (more than 100 referred journal papers) in the highly impacted journals like Nature (IF=69.5), Science (IF=63.7), PNAS (IF=12.8), One Earth (IF=14.9), New England of Medicine (IF=176), Environ Chem. Letts (IF=13.6), Environ. Sci. & Tech (11.3), Bull. Amer. Meteor. Soc. (IF=9.1), Atmos. Chem. Phys. (7.2), Scientific Report (5.0), Geophys. Res. Letters (5.6), J. Geophys. Res. (5.2), Atmos. Environ. (5.8) etc. and conference proceedings.In the three world’s leading multidisciplinary science jou

Selected 10 Publications (*corresponding author) (10篇代表作, *通信作者):

(1)Daniel Rosenfeld*, Yannian Zhu, Minghuai Wang*, Youtong Zheng, Tom Goren, and Shaocai Yu*, 2019. Aerosol-driven droplet concentrations dominate coverage and water of oceanic low level clouds, Science, 363, 599, eaav0566: 1-9, Doi: 10.1126/science.aav0566. (~223 citations in the google scholar, IF=56.9).

(2)Huiming Bao*, Shaocai Yu*, Daniel Tong, 2010. Massive volcanic SO2 oxidation and sulphate aerosol deposition in Cenozoic North America, Nature, 465, 909-912, doi:10.1038/nature09100. (~45 citations in the google scholar, IF=64.8).

(3)Pengfei Li, Renchang Yan, Shaocai Yu*, Si Wang, Weiping Liu Huiming Bao, 2015. Reinstate regional transport of PM2.5 as a major cause of severe haze in Beijing, Proc Natl Acad Sci USA (PNAS), doi:10.1073/pnas.1502596112. 112(21), E2739–E2740.  (~130 citations in the google scholar, IF=11.1).

(4)Shaocai Yu*, Pengfei Li, Liqiang Wang, Peng Wang, Si Wang, Shucheng Chang, Weiping Liu, and Kiran Alapaty, 2016. Anthropogenic aerosols are a potential cause for migration of the summer monsoon rain belt in China, Proc Natl Acad Sci USA (PNAS), doi:10.1073/pnas.1601104113, 113(16): E2209-E2210.  (~32 citations in the google scholar, IF=11.1)

(5)Liqiang Wang, Xue Chen, Yibo Zhang, Mengying Li, Pengfei Li, Linhui Jiang, Yan Xia, Zhen Li, Jiali Li, Lu Wang, Tangyan Hou, Weiping Liu, Daniel Rosenfeld, Tong Zhu, Yuanhang Zhang, Jianmin Chen, Shuxiao Wang, Yuanlong Huang, John H. Seinfeld, Shaocai Yu*, 2021. Switching to electric vehicles can lead to significant reductions of PM_2.5 and NO₂ across China, One Earth 4, 1037–1048, https://doi.org/10.1016/j.oneear.2021.06.008 (~32 citations in the google scholar, IF=16.2).

(6)Liqiang Wang, Mengying Li, Shaocai Yu*, Xue Chen, Zhen Li, Yibo Zhang, Linhui Jiang, Yan Xia, Jiali Li, Weiping Liu, Pengfei Li, Eric Lichtfouse, Daniel Rosenfeld, and John H. Seinfeld, 2020. Unexpected rises of ozone in urban and rural areas and sulfur dioxide in rural areas during the coronavirus city lockdown in Hangzhou, China: Implications for air quality, Environ Chem Lett. 18:1713–1723 (https://doi.org/10.1007/s10311-020-01028-3). (~89 citations in the google scholar, IF=15.7).

(7)Shaocai Yu*, 2014, Water spray geoengineering to clean air pollution for mitigating haze in China’s cities. Environ Chem Lett, DOI 10.1007/s10311-013-0444-0, 12:109–116.  (~60 citations in the google scholar, IF=15.7).

(8)Shaocai Yu*, Prakash V. Bhave, Robin L. Dennis, and Rohit Mathur, 2007. Seasonal and regional variations of primary and secondary organic aerosols over the continental United States: Observation-based estimates and Model evaluation. Environmental Science & Technology, 41, 4690-4697. (~104 citations in the google scholar, IF=11.4).

(9)Shaocai Yu*, Brian Eder, Robin Dennis, Shao-hang Chu, Stephen Schwartz, 2006. New unbiased symmetric metrics for evaluation of air quality models. Atmospheric Science Letter, 7, 26-34. (~314 citations in the google scholar, IF=3.0).

(10)      Shaocai Yu*, 2000. The role of organic acids (formic, acetic, pyruvic and oxalic) in the formation of cloud condensation nuclei (CCN): a review. Atmospheric Research, 53, 185-217. (~273 citations in the google scholar, IF=5.5).

2024:

（1）  Yunqian Chen, Siyuan Jing,Yanting Wang, Zhe Song, Lifang Xie, Xiaona Shang, Hongbo Fu, Chris Yang, Huimin Wang, Minghuo Wu, Yinjuan Chen, Qing Li, Yan Zhang, Wei Wang, Liwu Zhang, Rong Wang, Mingliang Fang, Yuzhong Zhang, Weijun Li, Defeng Zhao, Xu Tang, Chunlin Li, Yinon Richen, Lin Wang,  Renhe Zhang, Weiping Liu,Thomas C. Wanger, Shaocai Yu^*, Jianmin Chen, 2024, Quantification and Characterization of Fine Plastic Particles asConsiderable Components in Atmospheric Fine Particles. Environ. Sci. Tech, https://doi.org/10.1021/acs.est.3c06832.

（2）  Xuedan Dou, Shaocai Yu^*, Jiali Li, Yuhai Sun, Zhe Song, Ningning Yao, Pengfei Li^*, 2024, The WRF-CMAQ Simulation of a Complex Pollution Episode with High-Level O₃ and PM_2.5 over the North China Plain: Pollution Characteristics and Causes. Atmosphere, 15, 198. https:// doi.org/10.3390/atmos15020198.

（3）  Yaping Jiang, Shaocai Yu^*, Xue Chen, Yibo Zhang, Mengying Li, Zhen Li, Zhe Song, Pengfei Li^*, Xiaoye Zhang, Eric Lichtfouse, Daniel Rosenfeld, 2024. Large contributions of emission reductions and meteorological conditions to abatement of PM_2.5 in Beijing during the 2022 Winter Olympic Games. Journal of Environmental Sciences, 136 (2024) 172–188， https://doi.org/10.1016/j.jes.2022.12.017.

（4）  Mengying Li, Shaocai Yu*, Pengfei Li, Xue Chen, Zhe Song, Weiping Liu, Xiaoye Zhang, Meigen Zhang, Yele Sun, Zirui Liu, Jingkun Jiang, Eric Lichtfouse, Daniel Rosenfeld, and John H. Seinfeld, 2024. Unrecognized pollution by inorganic condensable particulate matter in the atmosphere, Environ Chem Lett,22, 49–56, https://doi.org/10.1007/s10311-023-01644-9.

（5）  Zeyu Feng, Yihang Cui, Yuqing Pan, Shaocai Yu*, Alexander Baklanov, Daniel Rosenfeld, John H. Seinfeld, and Pengfei Li^*, 2024. Global Coal Mine Methane Emissions Jeopardize the 1.5 °C Climate Target, Nature sustainability (in review).

（6）  Zhe Song, Shaocai Yu*, Xue Chen, Mengying Li, Pengfei Li*, Ke Hu, Shengwen Liang, Jianmin Chen, Daniel Rosenfeld, John H. Seinfeld, 2024, A case study of significant reductions of urban daytime ozone by extremely high concentration NO_X from ship’s emissions.Atmospheric Pollution Research (in revision).

（7）  Xiaojuan Huang; Yanzhen Ge; Tongsuo Yang; Yan Wang; Xinfeng Wang; Jixin Su; Likun Xue; Shaocai Yu; Abdewahid Mellouki; Jianmin Chen, 2024, Fireworks displays vastly elevate single particles and threaten human health in Chinese Spring Festival: A case in Tai'an City in 2023.Cell Reports Sustainability (in review)

（8）  Xuedan Dou, Shaocai Yu^*, Mengying Li, Yaping Jiang, Zhe Song, Pengfei Li, Different contributions of meteorological conditions and emission reductions to the ozone pollution during Shanghai’s COVID-19 lockdowns in winter and spring, Air Quality, Atmosphere & Health (in revision)

（9）  Yujie Wu, Xue Chen, Pengfei Li, Liqiang Wang, Yibo Zhang, Mengying Li, Zhen Li, Weiping Liu, Junji Cao, Daniel Rosenfeld, John H. Seinfeld, Shaocai Yu*, 2024. Abrupt decline in PM_2.5 air pollution in China: Air pollution mitigation policies win an initial success. One Earth. (in submission).

2023

（10）Jianmin Chen, Xiaojuan Huang, Zhe Liu, Yanzhen Ge, Qing Li, Xiaofei Wang, Hongbo Fu, Jian Zhu, Bin Zhou, Lin Wang, Christian George, Yan Wang, Xinfeng Wang, Jixin Su, Likun Xue, Shaocai Yu, and Abdelwahid Mellouki， 2023. Aerosol high water contents favor sulfate and secondary organic aerosol formation from fossil fuel combustion emissions, npj Climate and Atmospheric Science, 6:173; https://doi.org/10.1038/s41612-023-00504-1.

（11）Bowei Li, Shaocai Yu, Min Shao, Xinhe Li, Steven Sai Hang Ho, Xiaoyi Hu, Hongli Wang, Rui Feng, Xuekun Fang, 2023. New insights into photochemical initial concentrations of VOCs and their source implications. Atmospheric Environment 298, 119616.https://doi.org/10.1016/j.atmosenv.2023.119616.

（12）Yuchen Wang, Xvli Guo, Yajie Huo, Mengying Li, Yuqing Pan*, Shaocai Yu*, Alexander Baklanov, Daniel Rosenfeld, John H. Seinfeld, and Pengfei Li*, 2023. Toward a versatile spaceborne architecture for immediate monitoring of the global methane pledge. Atmos. Chem. Phys.23, 5233–5249.

（13）Yuqing Pan, Lei Duan, Mingqi Li, Pinqing Song, Nan Xv, Jing Liu, Shaozhuo Li, Yifei Le, Cui Wang*, Jingjun Ma, Xin Zhou, Wei Wang, Yali Shi, Wei Su, Gang Wang, Yan Xia, Shaocai Yu*, Daniel Rosenfeld, John H. Seinfeld, Pengfei Li^*, 2023, Widespread missing super-emitters of nitrogen oxides across China inferred from year-round satellite observations. Science of the Total Environment 864 (2023) 161157.864.

（14）Zhe Liu, Bao Zhu, Chao Zhu, Ting Ruan, Jiarong Li, Hui Chen, Qing Li, Xiaofei Wang, Lin Wang, Yujing Mu, Jeffery Collett, Christian George, Yan Wang, Xinfeng Wang, Jixin Su, Shaocai Yu, Abdewahid Mellouki, Akkihebbal R. Ravishankara, Jianmin Chen*, Guibing Jiang, 2023, Abundant nitrogenous secondary organic aerosol formation accelerated by cloud processing. iScience 26, 108317, https://doi.org/10.1016/j.isci.2023.108317

（15）Gaojie Chen, Qiao Shi, Lingling Xu, Shaocai Yu*, Ziyi Lin, Xiaoting Ji, Xiaolong Fan, Youwei Hong, Mengren Li, Fuwang Zhang, Jinfang Chen, Jinsheng Chen*, 2023, Photochemistry in the urban agglomeration along the coastline of southeastern China: Pollution mechanism and control implication.Science of the Total Environment, 901 (2023) 166318.

2022

（16）Fanlei Meng^#, Yibo Zhang^#, Jiahui Kang, Mathew R. Heal, Stefan Reis, Mengru Wang, Lei Liu, Kai Wang, Shaocai Yu*, Pengfei Li, Jing Wei, Yong Hou, Ying Zhang, Xuejun Liu, Zhenling Cui, Wen Xu^*, and Fusuo Zhang, 2022, Trends in secondary inorganic aerosol pollution in China and its responses to emission controls of precursors in wintertime, Atmospheric Chemistry and Physics, 22, 6291–6308, https://doi.org/10.5194/acp-22-6291-2022.

（17）Jiali Li, Shaocai Yu*, Xue Chen, Yibo Zhang, Mengying Li, Zhen Li, Zhe Song, Weiping Liu, Pengfei Li, Min Xie, Jia Xing, 2022. Evaluation of the WRF-CMAQ Model Performances on Air Quality in China with the Impacts of the Observation Nudging on Meteorology. Aerosol Air Qual. Res. 22, 220023. https://doi.org/10.4209/aaqr.220023.

（18）Yibo Zhang, Shaocai Yu*, Xue Chen, Zhen Li, Mengying Li, Zhe Song, Weiping Liu, Pengfei Li, Xiaoye Zhang, Eric Lichtfouse, and Daniel Rosenfeld, 2022. Local production, downward and regional transport aggravated surface ozone pollution during the historical orange-alert large-scale ozone episode in eastern China. Environ Chem Lett, https://doi.org/10.1007/s10311-022-01421-0.

（19）Shucheng Chang, Yongbo Zhang, Wutao Zeng, Chenghao Liaa, Zhe Song, Yijia Zheng, Yixi Li, Long Wang, Qianru Zhu, Yinping Luo, Pengfei Li, and Shaocai Yu^*, 2022. Emission mitigation pathways to achieve PM_2.5Interim target III of the World Health Organization in the Pearl River Delta in 2035. Atmospheric Research, 269, 106050.https://doi.org/10.1016/j.atmosres.2022.106050.

（20）Zhen Li, Shaocai Yu*, Xue Chen, Yibo Zhang, Mengying Li, Zhe Song, Weiping Liu, Pengfei Li*, Xiaoye Zhang. 2022. The Modeling Study about Impacts of Emission Control Policies for Chinese 14^th Five-Year Plan on PM_2.5 and O₃ in Yangtze River Delta, China. Atmosphere, 13, 26. https://doi.org/10.3390/atmos13010026

（21）Yan Xia, Linhui Jiang, Lu Wang, Xue Chen, Jianjie Ye, Tangyan Hou, Liqiang Wang, Yibo Zhang, Mengying Li, Zhen Li, Zhe Song, Yaping Jiang, Weiping Liu, Pengfei Li*, Daniel Rosenfeld, John H. Seinfeld, Shaocai Yu*, 2022, Rapid Assessments of Light-Duty Gasoline Vehicle Emissions Using On-Road Remote Sensing and Machine Learning, Science of the Total Environment, 815, 152771, http://dx.doi.org/10.1016/j.scitotenv.2021.152771.

（22）Yanzhen Ge, Chunqiang Chen, Yaping Jiang, Tongsuo Yang, Hongyang Kang, Meiyan Hou, Xinran Zhao, Yibo Zhang, Mengying Li, Tangyan Hou, Jianmin Chen, Shaocai Yu*. 2022. Characteristics of Ozone Pollution in Tai’an and Topographic Effects of Mount Tai. Atmosphere 2022, 13, 1299. https://doi.org/10.3390/atmos13081299

（23）Tangyan Hou, Shaocai Yu*, Yaping Jiang, Xue Chen, Yibo Zhang, Mengying Li, Zhen Li, Zhe Song,Weiping Liu, Pengfei Li*, Jianming Chen, Xiaoye Zhang. 2022. Impacts of chemical initial conditions in the WRF–CMAQ model on the ozone forecasts in eastern China.Aerosol and Air Quality Research (AAQR), 22(7), 210402, https://doi.org/10.4209/aaqr.210402.

（24）Mengying Li, Shaocai Yu*, Xue Chen, Zhen Li, Yibo Zhang, Zhe Song, Weiping Liu, Pengfei Li, Xiaoye Zhang, Meigen Zhang, Yele Sun, Zirui Liu, Caiping Sun, Jingkun Jiang, Shuxiao Wang, Benjamin N. Murphy, Kiran Alapaty, Rohit Mathur, Daniel Rosenfeld, and John H. Seinfeld, 2022. Impacts of condensable particulate matter on atmospheric organic aerosols and fine particulate matter (PM_2.5) in China, Atmospheric Chemistry and Physics, 22, 11845–11866.

（25）Xue Chen, Linhui Jiang, Yan Xia, Lu Wang, Jianjie Ye, Tangyan Hou, Yibo Zhang, Mengying Li, Zhen Li, Zhe Song, Jiali Li, Yaping Jiang, Pengfei Li, Daniel Rosenfeld, John H. Seinfeld, Shaocai Yu*, 2022. Quantifying on-road vehicle emissions during traffic congestion using updated LDGV emission factors and real-world traffic monitoring big data. Science of the Total Environment, 847, 157581.

（26）Lu Wang, Xue Chen, Yan Xia, Linhui Jiang, Jianjie Ye, Tangyan Hou, Liqiang Wang, Yibo Zhang, Mengying Li, Zhen Li, Zhe Song, Yaping Jiang, Weiping Liu, Pengfei Li, Xiaoye Zhang, Shaocai Yu^*, 2022. Operational Data-Driven Intelligent Modelling and Visualization System for Real-World, On-Road Vehicle Emissions—A Case Study in Hangzhou City, China. Sustainability, 14, 5434. https://doi.org/10.3390/su14095434

2021

（27）Liqiang Wang, Xue Chen, Yibo Zhang, Mengying Li, Pengfei Li, Linhui Jiang, Yan Xia, Zhen Li, Jiali Li, Lu Wang, Tangyan Hou, Weiping Liu, Daniel Rosenfeld, Tong Zhu, Yuanhang Zhang, Jianmin Chen, Shuxiao Wang, Yuanlong Huang, John H. Seinfeld, Shaocai Yu^*, 2021. Switching to electric vehicles can lead to significant reductions of PM_2.5 and NO₂ across China, One Earth 4, 1037–1048, https://doi.org/10.1016/j.oneear.2021.06.008.

（28）Chun Xiong, Shaocai Yu*, Xue Chen, Liqiang Wang, Zhen Li, Yibo Zhang, Mengying Li, Weiping Liu, Pengfei Li, and John H. Seinfeld, 2021. Dominant Contributions of Secondary Aerosols and Vehicle Emissions to Water-Soluble Inorganic Ions of PM_2.5 in an Urban Site in the Metropolitan Hangzhou, China. Atmosphere, 12, 1529. https://doi.org/10.3390atmos12111529.

（29）Linhui Jiang, Yan Xia, Lu Wang, Xue Chen, Jianjie Ye, Tangyan Hou, Liqiang Wang, Yibo Zhang, Mengying Li, Zhen Li, Zhe Song, Yaping Jiang, Weiping Liu, Pengfei Li*, Daniel Rosenfeld, John H. Seinfeld, Shaocai Yu*, 2021, Hyperfine-Resolution Mapping of On-Road Vehicle Emissions with Comprehensive Traffic Monitoring and Intelligent Transportation System, Atmospheric Chemistry and Physics, 21, 16985–17002, https://doi.org/10.5194/acp-21-16985-2021.

（30）Zhen Li, Shaocai Yu*, Mengying Li, Xue Chen, Yibo Zhang, Jiali Li, Yapping Jiang, Weiping Liu, Pengfei Li, and Eric Lichtfouse, 2021, Non-stop industries were the main source of air pollution during the 2020 coronavirus lockdown in the North China Plain, Environ Chem Lett, https://doi.org/10.1007/s10311-021-01314-8.

（31）Mengying Li, Shaocai Yu^*, Xue Chen, Zhen Li, Yibo Zhang, Liqiang Wang, Weiping Liu, Pengfei Li, Eric Lichtfouse, Daniel Rosenfeld, and John H. Seinfeld, 2021, Observed evidence of relative humidity-dependent surface ozone decreases in warm seasons on a large scale in China, Environ Chem Lett, 19:3981–3989, https://doi.org/10.1007/s10311-021-01265-0.

（32）Yibo Zhang, Xue Chen, Shaocai Yu^*, Liqiang Wang, Zhen Li, Mengying Li, Weiping Liu, Pengfei Li, Daniel Rosenfeld, John H. Seinfeld, 2021 City-level air quality improvement in the Beijing-Tianjin-Hebei region from 2016/17 to 2017/18 heating seasons: attributions and process analysis. Environmental Pollution, 274, 116523, https://doi.org/10.1016/j.envpol.2021.116523.

（33）Kai Wang, Yang Zhang^*, Shaocai Yu^*, David C. Wong, Jonathan Pleim, Rohit Mathur, James T. Kelly4, and Michelle Bell, 2021. A Comparative Study of Two-way and Offline Coupled WRF v3.4 and CMAQ v5.0.2 over the Contiguous U.S.: Performance Evaluation and Impacts of Chemistry-Meteorology Feedbacks on Air Quality. Geoscientific Model Development.Geosci. Model Dev., 14, 7189–7221, https://doi.org/10.5194/gmd-14-7189-2021.

2020:

（34）Liqiang Wang, Shaocai Yu^*, Pengfei Li, Xue Chen, Zhen Li, Yibo Zhang, Mengying Li, Khalid Mehmood, Weiping Liu, Tianfeng Chai, Yannian Zhu, Daniel Rosenfeld, and John H. Seinfeld. 2020. Significant wintertime PM_2.5 mitigation in the Yangtze River Delta, China, from 2016 to 2019: observational constraints on anthropogenic emission controls. Atmos. Chem. Phys., 20, 14787–14800, 2020,https://doi.org/10.5194/acp-20-14787-2020.

（35）Liqiang Wang, Mengying Li, Shaocai Yu^*, Xue Chen, Zhen Li, Yibo Zhang, Linhui Jiang, Yan Xia, Jiali Li, Weiping Liu, Pengfei Li, Eric Lichtfouse, Daniel Rosenfeld, and John H. Seinfeld, 2020. Unexpected rises of ozone in urban and rural areas and sulfur dioxide in rural areas during the coronavirus city lockdown in Hangzhou, China: Implications for air quality, Environ Chem Lett. 18:1713–1723, https://doi.org/10.1007/s10311-020-01028-3.

（36）Xue Chen, Shaocai Yu^*，Liqiang Wang，Zhen Li, Yibo Zhang, Mengying Li, Khalid Mehmood, Weiping Liu, Pengfei Li, Eric Lichtfouse, Daniel Rosenfeld, and John H. Seinfeld, 2020. Common pollution source areas identified for regional haze formation over Yangtze River Delta, China. Environ Chem Lett, 18, 957–965, https://doi.org/10.1007/s10311-020-00976-0.

（37）Khalid Mehmood, Yujie Wu, Liqiang Wang, Shaocai Yu^*, Pengfei Li, Xue Chen, Zhen Li, Yibo Zhang, Mengying Li, Weiping Liu, Yannian Zhu, Daniel Rosenfeld, and John H. Seinfeld, 2020. Relative effects of open biomass and crop straw burning on haze formation over central and eastern China: modelling study driven by constrained emissions. Atmos. Chem. Phys., 20, 2419–2443, https://doi.org/10.5194/acp-20-2419-2020

（38）Xin Wu, Mengren Li, Jinsheng Chen^*, Hong Wang, Lingling Xu, Youwei Hong, Guoqing Zhao, Baoye Hu, Yanru Zhang, Yangbin Dan, Shaocai Yu^*, 2020. The characteristics of air pollution induced by the quasi-stationary front: formation processes and influencing factors. Science of the Total Environment, 707:136194, DOI:10.1016/j.scitotenv.2019.136194.

2019:

（39）Ping Guo, Shaocai Yu*, Liqiang Wang, Pengfei Li, Zhen Li, Khalid Mehmood, Xue Chen, Weiping Liu, Yannian Zhu, Xing Yu, Kiran Alapaty, Eric Lichtfouse, Daniel Rosenfeld, and John H. Seinfeld, 2019.High-altitude and long-range transport of aerosols causing regional severe haze during extreme dust storms explains why afforestation does not prevent storms, Environ Chem Lett, 17:1333–1340, DOI: 10.1007/s10311-019-00858-0.

（40）Daniel Rosenfeld*^#, Yannian Zhu^#, Minghuai Wang*, Youtong Zheng, Tom Goren, and Shaocai Yu*, 2019. Aerosol-driven droplet concentrations dominate coverage and water of oceanic low level clouds, Science,363, 599, eaav0566: 1-9,Doi: 10.1126/science.aav0566.

（41）Shaocai Yu*, 2019. Fog geoengineering to abate local ozone pollution at ground-level by enhancing air moisture. Environ Chem Lett, 17(1), 565–580, doi: 10.1007/s10311-018-0809-5.

（42）Peng Wang, Chun Xiong, Yujie Wu, Zhen Li, Ping Guo, Xue Chen, Shaocai Yu*, Zhibin Wang, Weiping Liu, 2019. A Heavy Haze Episode in Hangzhou in the winter of 2017: Characteristics of PM_2.5 Water-soluble Components, Causes and Origins, J. Zhejiang University (Science edition), 46(3): 345-353.DOI: 10.3785/j.issn.1008-9497.2019.03.013,

（43）Shucheng Chang, Chenghao Liao, Wutao Zeng, Liulin Yang, Shaocai Yu, Xue Chen, Jianping Zheng, 2019, Source Apportionment of Air Pollutants in a Typical Polluted Case in Zhaoqing,Ch. J. Environ. Sci. 40(10):4310-4318.

（44）Xin Lin, Fang Cao, Xiaoyao Zhai, Mengying Bao, Shaocai Yu, Jingpeng Wang, Yanlin Zhang, 2019. Characterization and sources of water soluble inorganic ions in PM_2.5 in winter in typical cities of China. Ecology and Environmental Sciences, 28(2): 307-315.

2018:

（45）Shaocai Yu*, Pengfei Li, Liqiang Wang,Yujie Wu, Si Wang, Weiping Liu, Tong Zhu,Yuanhang Zhang,Min Hu, Kiran Alapaty,David Wong, Jon Pleim, Rohit Mathur, Daniel Rosenfeld, John Seinfeld, 2018. Mitigation of severe urban haze pollution by a precision air pollution control approach. Scientific Reports,8:8151, doi:10.1038/s41598-018-26344-1.

（46）Zhen Li, Shaocai Yu*, Liqiang Wang, Khalid Mehmood, Weiping Liu, Kiran Alapaty, 2018. Suppression of the convective precipitation by the elevated man-made aerosols is responsible for large-scale droughts in North China, Proc Natl Acad Sci USA (PNAS), 115 (36): E8327-E8328,doi:10.1073/pnas.1811295115.

（47）Chun Xiong, Zhen Li, Zhiyuan Xie, Ping Guo, Shaocai Yu*, Weiping Liu, 2018. Characteristics and origins of air pollutants in Hangzhou, China, based on observations and case analyses, Environmental Pollution & Control, 40(12)：1342-1346.

（48）Guo Ping, Luo Yiliang, Wu Yujie, Wang Si, Shaocai Yu*, Liu Weigping, 2018. Analysis of the characteristics and causes of haze pollution in the winter based on terrestrial and satellite observations in Changsha. Environmental Pollution & Control (in Chinese), 40(7), 800-805.

（49）Guo Ping, Wang Qingying, LiPengfei, Wang Liqiang, Shaocai Yu*, Liu Weigping, 2018. Analysis of the characteristics and causes of heavy haze pollution based on hybrid receptor model in Tianjin,. Environmental Science & Technology (in Chinese), 41 (7): 97-102.

（50）Liqiang Wang，Pengfei Li, Shucheng Chang, Shaocai Yu*, Khalid Mehmood, Zhen Li, Weiping Liu, Daniel Rosenfeld, Richard C. Flagan, and John H. Seinfeld, 2018. Predicted impact of thermal power generation emission control measures in the Beijing-Tianjin-Hebei region on haze formation over Beijing, China.Scientific Reports, 8:934 | DOI:10.1038/s41598-018-19481-0.

（51）Yujie Wu, Peng Wang, Shaocai Yu*, Liqiang Wang, Pengfei Li, Zhen Li, Khalid Mehmood, Weiping Liu, Jian Wu, Eric Lichtfouse, Daniel Rosenfeld, John H. Seinfeld, 2018. Residential emissions predicted as a major source of fine particulate matter in winter over the Yangtze River Delta, China. Environ Chem Lett. 16 (3):1117–1127, doi.org/10.1007/s10311-018-0735-6

（52）Khalid Mehmood, Shucheng Chang, Shaocai Yu*，Liqiang Wang，Pengfei Li, Zhen Li, Weiping Liu, Daniel Rosenfeld, and John H. Seinfeld, 2018. Spatial and temporal distributions of air pollutant emissions from open crop straw and biomass burnings in China from 2002 to 2016. Environ Chem Lett. 16:301–309. DOI: 10.1007/s10311-017-0675-6.

2017:

（53）Pengfei Li, Liqiang Wang, Ping Guo, Shaocai Yu*, Khalid Mehmood, Si Wang, Weiping Liu, John H. Seinfeld, Yang Zhang, David Wong, Kiran Alapaty, Jon Pleim and Rohit Mathur, 2017. High reduction of ozone and particulate matter during the 2016 G-20 summit in Hangzhou by forced emission controls of industry and traffic. Environ Chem Lett, 15:709–715, DOI 10.1007/s10311-017-0642-2.

（54）Gang Xu, Si Wang, Pengfei Li, Shaocai Yu*, Weigping Liu, Xianjue Zheng, 2017. Characteristics and origins of haze pollution in Wenzhou, China, Environmental Pollution & Control, 39(10), 1101-1107.

（55）Si Wang,Shaocai Yu*, Renchang Yan，Qingyu Zhang, Pengfei Li, Liqiang Wang，Weiping Liu, Xianjue Zheng, 2017. Characteristics and origins of air pollutants in Wuhan, China, based onobservations and hybrid receptor models, Journal of the Air & Waste Management Association (JA&WMA), 2017, 67(7), 739–753, doi:10.1080/10962247.2016.1240724.

（56）Jian He, Tim Glotfelty, Khairunnisa Yahya, and Kiran Alapaty, Shaocai Yu*, 2017. Does Temperature Nudging Overwhelm Aerosol Radiative Forcing in Regional Integrated Climate Models? Atmos. Environ., 154, 42-52, doi:10.1016/j.atmosenv.2017.01.040.

（57）Si Wang, Shaocai Yu*, Renchang Yan, Pengfei Li, Liqiang Wang,Khalid Mehmood,Weiping Liu, Xianjue Zheng, 2017. A Study of Characteristics and Origins of Haze Pollution in Zhengzhou, China, Based on Observations and Hybrid Receptor Models. Aerosol and Air Quality Research，doi: 10.4209/aaqr.2016.06.0238.

2016:

（58）Shaocai Yu*, Pengfei Li, Liqiang Wang, Weiping Liu, Tong Zhu, and Kiran Alapaty. 5/26/2016. The measures to curb China’s notoriously bad air pollution in cities, Science eLetter. Publisher's Version (http://science.sciencemag.org/content/352/6288/916.e-letters).

（59）Shaocai Yu*, Pengfei Li, Liqiang Wang, Peng Wang, Si Wang, Shucheng Chang, Weiping Liu, and Kiran Alapaty, 2016. Anthropogenic aerosols are a potential cause for migration of the summer monsoon rain belt in China, Proc Natl Acad Sci USA (PNAS), doi:10.1073/pnas.1601104113, 113(16): E2209-E2210.

2015:

（60）Qingyu Zhang, Renchang Yan, Juwang Fan, Shaocai Yu*, Weidong Yang, Pengfei Li, Si Wang, Bixin Chen, Weiping Liu, Xiaoyu Zhang, 2015. A heavy haze episode in Shanghai in December of 2013: Characteristics origins and implications, Aerosol and Air Quality Research，doi:10.4209/aaqr.2015.03.0179, 15:1881–1893, 2015.

（61）Pengfei Li, Renchang Yan, Shaocai Yu*, Si Wang, Weiping Liu Huiming Bao, 2015. Reinstate regional transport of PM_2.5 as a major cause of severe haze in Beijing, Proc Natl Acad Sci USA (PNAS), doi:10.1073/pnas.1502596112. 112(21), E2739–E2740.

（62）Renchang Yan, Shaocai Yu*, Qingyu Zhang, Pengfei Li, Si Wang, Bixin Chen, Weiping Liu，2015. A heavy haze episode in Beijing in February of 2014: Characteristics, origins and implications，Atmospheric Pollution Research，doi:10.5094/APR.2015.096, 6:867‐876.

（63）Cai, C.-J., X. Zhang, K. Wang, Y. Zhang, L.-T. Wang, Q. Zhang, F.-K. Duan, K.-B. He, and Shaocai Yu*, 2015, Incorporation of New Particle Formation and Early Growth treatments into WRF/Chem and its Application over East Asia: Model Improvement, Evaluation, and the Nucleation-Aerosol-Cloud-Meteorology Interactions, Atmospheric Environment, doi: 10.1016/j.atmosenv.2015.05.046, 124: 262-284.

2014:

（64）Shaocai Yu*, Li, Yin, Can the air pollution be cleaned by spraying water into the atmosphere? Environmental Economy, 2:29, 2014.

（65）Shaocai Yu*,R. Mathur, J. Pleim, D. Wong, R. Gilliam, K. Alapaty, C. Zhao, and X. Liu, 2014. Aerosol indirect effect on the grid-scale clouds in the two-way coupled WRF-CMAQ: model description, development, evaluation and regional analysis. Atmos. Chem. Phys. 14, 11247–11285, doi:10.5194/acp-14-1-2014.

（66）Shaocai Yu*, Kiran Alapaty, Rohit Mathur, Jonathan Pleim, Yuanhang Zhang, Chris Nolte, Brian Eder, Kristen Foley, Tatsuya Nagashima, 2014. Attribution of the United States ‘‘warming hole’’: Aerosol indirect effect and precipitable water vapor. Sci. Rep. 4, 6929; DOI:10.1038/srep06929.

（67）Shaocai Yu*, Qingyu Zhang, Renchang Yan, Si Wang, Pengfei Li, Bixin Chen, Weiping Liu,Xiaoyu Zhang, 2014, Origin of air pollution during a weekly heavy haze episode in Hangzhou, China, Environ Chem Lett，12(4):543–550, DOI: 10.1007/s10311-014-0483-1.

（68）Shaocai Yu*, 2014, Water spray geoengineering to clean air pollution for mitigating haze in China’s cities. Environ Chem Lett, DOI 10.1007/s10311-013-0444-0, 12:109–116.

2012:

（69）Gustafson Jr. W.I., and Shaocai Yu*, 2012. Generalized approach for using unbiased symmetric metrics with negative values: normalized mean bias factor and normalized mean absolute error factor, Atmospheric Science Letter, 13(4):262-267.  doi:10.1002/asl.393.

（70）Shaocai Yu*, Rohit Mathur, Jonathan Pleim, George Pouliot, Brian Eder, Kenneth Schere, David Wong, Rob Gilliam, S.T. Rao, 2012. Comparative evaluation of the impact of WRF/NMM and WRF/ARW meteorology on CMAQ simulations for PM_2.5 and its related precursors during the 2006 TexAQS/GoMACCS study,Atmospheric Chemistry and Physics, 12, 4091-4106, doi:10.5194/acp-12-4091-2012.

（71）Shaocai Yu*, Rohit Mathur, Jonathan Pleim, George Pouliot, Brian Eder, Kenneth Schere, David Wong, Rob Gilliam, S.T Rao, 2012. Comparative evaluation of the impact of WRF-NMM and WRF-ARW meteorology on CMAQ simulations for O₃ and related species during the 2006 TexAQS/GoMACCS campaign. Atmospheric Pollution Research, 3, 149-162, doi:10.5094/APR.2012.015.

2011:

（72）Shaocai Yu*, and Yang Zhang, 2011. An Examination of the Effects of Aerosol Chemical Composition and Size on Radiative Properties of Multi-Component Aerosols, Atmospheric and Climate Sciences, 1(2), 19-32, doi: 10.4236/acs.2011.12003.

（73）Ping Liu and Yang Zhang, Shaocai Yu*, and Kenneth L. Schere, 2011. Use of a Process Analysis Tool for Diagnostic Study on Fine Particulate MatterPredictionsin the U.S. Part II: Process Analysis and Sensitivity Simulations. Atmospheric Pollution Research, 2, 61-71.

2010:

（74）Yang Zhang,Ping Liu, X.-H. Liu, Mark Z. Jacobson, P. H. McMurry, F. Yu, Shaocai Yu*, Ken L. Schere, 2010. A comparative study of homogeneous nucleation parameterizations, part II.  3-D model simulations and evaluation. Journal of Geophysical Research, 115, D20213, doi:10.1029/2010JD014151.

（75）Huiming Bao, Shaocai Yu*, Daniel Tong, 2010. Massive volcanic SO₂ oxidation and sulphate aerosol deposition in Cenozoic North America, Nature, 465, 909-912, doi:10.1038/nature09100.

（76）Shaocai Yu*, R. Mathur, G. Sarwar, D. Kang, D. Tong, G. Pouliot, and J. Pleim, 2010. Eta-CMAQ air quality forecasts for O₃ and related species using three different photochemical mechanisms (CB4, CB05, SAPRC-99): comparisons with measurements during the 2004 ICARTT study, Atmos. Chem. Phys., 10, 3001-3025.

（77）Eder, B., Kang, D., Rao, S.T, Mathur, R., Shaocai Yu, Otte, T., Schere, K., Wayland, R., Jackson, S., Davidson, P., McQueen, J., 2010. A demonstration of the use of national air quality forecast guidance for developing local air quality index forecasts.Bulletin of the American Meteorological Society. 91, 313-326, Doi:10.1175/2009BAMS2734.1.

2009:

（78）D.Q. Tong, Shaocai Yu, and Haidong Kan, 2009. Ozone exposure and mortality. New England Journal of Medicine, 360:2788.

（79）Shaocai Yu*, Rohit Mathur, Kenneth Schere, Daiwen Kang, and Daniel Tong, 2009. A study of the ozone formation by ensemble back trajectory-process analysis using the Eta-CMAQ forecast model over the northeastern U.S. during the 2004 ICARTT period, Atmos. Environ., 43, 355-363,doi:10.1016/j.atmosenv.2008.09.079.

（80）Eder, B., Kang, D., Mathur, R., Pleim, J., Shaocai Yu, Tanya Otte, George Pouliot. 2009. A performance evaluation of the national air quality forecast capability for the summer of 2007. Atmos. Environ. 43, 2312–2320.

（81）D.Q. Tong, Rohit Mathur, Daiwen Kang, Shaocai Yu, Kenneth L. Schere, and George Pouliot, 2009. Vegetation exposure to ozone over the continental United States: Assessment of exposure indices by the Eta-CMAQ air quality forecast model.  Atmos. Environ., doi:10.1016/j.atmosenv.2008.09.084.

（82）Pius Lee, You-Hua Tang, Daiwen Kang, Jeff McQueen, Marina Tsidulko, Mary Hart, Hsin-Mu Lin, Shaocai Yu, Geoff DiMego, and Paula Davidson, 2009.  Impact of consistent boundary layer mixing approaches between NAM and CMAQ. Environmental Fluid Mechanics, 9:23–42, DOI 10.1007/s10652-008-9089-0.

（83）Y. Tang, P. Lee, M. Tsidulko, H. Huang, J.T. McQueen, G.J. DiMego, L. K. Emmons, R. B. Pierce, H. Lin, D. Kang, D. Tong, Shaocai Yu, R. Mathur, J. E. Pleim, T. L. Otte, G. Pouliot, J. O. Young, K. L. Schere. P.M. Davidson. 2009. The Impact of Chemical Lateral Boundary Conditions on CMAQ Predictions of Tropospheric Ozone over the Continental United States. Environmental Fluid Mechanics, doi: 10.1007/s10652-008-9092-5.

2008:

（84）Daiwen Kang, Rohit Mathur, S. Trivikrama Rao, and Shaocai Yu, 2008. Study on bias adjustment techniques and its application to the Eta-CMAQ air quality forecasts of ozone, Journal of Geophysical Research, doi:10.1029/2008JD010151.

（85）Shaocai Yu*, Rohit Mathur, Kenneth Schere, Daiwen Kang, Jonathan Pleim, Jeffrey Young, Daniel Tong, Stuart A. McKeen, and S.T. Rao, 2008 Evaluation of real-time PM_2.5 forecasts and process analysis for PM_2.5 formation over the eastern U.S. using the Eta-CMAQ forecast model during the 2004 ICARTT Study.  Journal of Geophysical Research, 113, D06204, doi:10.1029/2007JD009226.

（86）Rohit Mathur, Shaocai Yu, Daiwen Kang, and Kenneth L. Schere, 2008. Assessment of the Winter-time Performance of Developmental Particulate Matter Forecasts with the Eta-CMAQ Modeling System, Journal of Geophysical Research, 113, D02303, doi:10.1029/2007JD008580.

2007:

（87）Daniel Tong, Rohit Mathur, Kenneth Schere, Daiwen Kang and Shaocai Yu, 2007. The use of air quality forecasts to assess impacts of air pollution on crops:  A case study of assessing soybean yield losses from ozone in the United States. Atmospheric Environment, 41, 8772–8784.

（88）Shaocai Yu*, Prakash V. Bhave, Robin L. Dennis, and Rohit Mathur, 2007. Seasonal and regional variations of primary and secondary organic aerosols over the continental United States: Observation-based estimates and Model evaluation. Environmental Science & Technology, 41, 4690-4697.

（89）Shaocai Yu*, Rohit Mathur, Kenneth Schere, Daiwen Kang, Jonathan Pleim, and Tanya L. Otte, 2007. A detailed evaluation of the Eta-CMAQ forecast model performance for O3, its related precursors, and meteorological parameters during the 2004 ICARTT study. Journal of Geophysical Research, 112, D12S14, doi:10.1029/2006JD007715.

（90）S. McKeen, S. H. Chung, J. Wilczak, G. Grell, I, Djalalova, S, Peckham, W. Gong,V. Bouchet, R. Moffet, Y. Tang, G. R. Carmichael, R. Mathur, Shaocai Yu, 2007, The evaluation of several PM2.5 forecast models using data collected during the ICARTT/NEAQS 2004 field study. Journal of Geophysical Research, 112, D10S20, doi:10.1029/2006JD007608.

（91）Daiwen Kang, Rohit Mathur, Kenneth Schere, Shaocai Yu, and Brian Eder, 2007. New categorical metrics for air quality model evaluation, Journal of Applied Meteorology. 46 (4), 549–555.

2006:

（92）Shaocai Yu*, Brian Eder, Robin Dennis, Shao-hang Chu, Stephen Schwartz, 2006. New unbiased symmetric metrics for evaluation of air quality models. Atmospheric Science Letter, 7, 26-34.

（93）Shaocai Yu*, Rohit Mathur, Daiwen Kang, Kenneth Schere, Brian Eder, Jonathan Pleim, 2006. Performance and diagnostic evaluations of a real-time ozone forecast by the Eta-CMAQ model suite during the 2002 New England Air Quality Study (NEAQS). Journal of the Air & Waste Management Association, 56:1459-1471.

（94）Brian Eder, Daiwen Kang, Rohit Mathur, Shaocai Yu and Kenneth Schere, 2006. An operational evaluation of the Eta-CMAQ air quality forecast model, Atmospheric Environment, 40: 4894-4905.

（95）Eder, B., and Shaocai Yu, 2006. A performance evaluation of the 2004 release of Models-3 CMAQ.Atmospheric Environment, 40: 4811-4824.

2005:

（96）Shaocai Yu*, Robin Dennis, Shawn Roselle Athanasios Nenes, John Walker, Brian Eder, Kenneth Schere, Jenise Swall, Wayne Robarge, 2005.  An assessment of the ability of 3-D air quality models with current thermodynamic equilibrium models to predict aerosol NO₃^-Journal of Geophysical Research, 110, D07S13, doi:10.1029/2004JD004718.

（97）Shaocai Yu*, 2005. Comments on “Instantaneous secondary organic aerosol yields and their comparison with overall aerosol yields for aromatic and biogenic hydrocarbons” (Atmospheric Environment 37 (2003) 5439-5444). Atmospheric Environment, 39, 7920-7922. 

1987-2004:

（98）Shaocai Yu*, R. Dennis, P. Bhave, B. Eder, 2004. Primary and secondary organic aerosols over the United States: estimates on the basis of observed organic carbon (OC) and elemental carbon (EC), and air quality modeled primary OC/EC ratios.  Atmospheric Environment, 38, 5257-5268.

（99）Shaocai Yu*, P.S. Kasibhatla D. L. Wright, S.E. Schwartz, R. McGraw and A. Deng.  2003.  Moment-based Simulation of the Influence of Microphysical Properties of Sulfate Aerosols in the Eastern United States: model description, evaluation and regional analysis. Journal of Geophysical Research, 108, No. D12, 4353, doi: 10.1029/2002JD002890, 2003

（100）      Douglas L. Wright, Jr., Shaocai Yu, Prasad  Kasibhatla, Robert McGraw, Stephen E. Schwartz, V. K. Saxena, Glenn K. Yue, 2002. Retrieval of aerosol properties from moments of the particle size distribution for kernels involving the step function: cloud activation. Journal of Aerosol Science, 33, 319-337.

（101）      Shaocai Yu*, V. K. Saxena, Zongci Zhao, 2001. A comparison of signals of regional aerosol-induced forcing in eastern China and the southeastern United States.  Geophys. Res. Lett., 28 , 713-716 .

（102）      Shaocai Yu*, C.S, Zender and Saxena, V.K. 2001. Direct radiative forcing and atmospheric absorption by boundary layer aerosols in the southeastern US:  model estimates on the basis of new observations. Atmospheric Environment, 35, 3967-3977.

（103）      Shaocai Yu*, 2000. The role of organic acids (formic, acetic, pyruvic and oxalic) in the formation of cloud condensation nuclei (CCN): a review. Atmospheric Research, 53, 185-217.

（104）      Shaocai Yu*, V. K. Saxena, B. N. Wenny, J. J. DeLuisi, G. K. Yue and I. V. Petropavlovskikh, 2000. A study of the aerosol radiative properties needed to compute direct aerosol forcing in the southeastern US. Journal of Geophysical Research, 105, 24739-24749.

（105）      Saxena V.K., and Shaocai Yu, 1998. Searching for a regional fingerprint of aerosol forcing in the southeastern US. Geophys. Res. Lett. 25, 2833-2836.

（106）      Shaocai Yu*, Gao, Chentie, Chen, Zemian., Chen, Xiaojian, Chen, Shuentian, Xiao Jian, and Ye Wenxian, 1998. An analysis of chemical composition of different rain types in “Minnan Golden Triangle” region in the southeastern coast of China. Atmos. Res. 47-48: 245-269.

（107）      DeFelice, T. P., Saxena, V. K., and Shaocai Yu, 1997.On the measurements of cloud condensation nuclei (CCN) at Palmer Station, Antarctica., Atmospheric Environment, 31:4039-4044.

（108）      Saxena, V.K., Shaocai Yu, and J. Anderson, 1997. Impact of stratospheric volcanic aerosols on climate: Evidence of aerosol radiative forcing in the southeastern US. Atmospheric Environment, 31:4211-4221.

（109）      Shaocai Yu*, Chen, Zemian., Cai, Xiaopin., Chen Xiaojian, and Shong, Weijian. 1994. A study of acid precipitation in the oceanic environment of Xiamen Island. Atmos. Res. 32: 297-311.

（110）      Shaocai Yu*, 1994. Relationship between meteorological elements and acid rain and its sources at Xiamen Island. Meteorology. 20(5): 20-23.

（111）      Shaocai Yu*, 1994. Physical-chemical model study of oceanic acid rain in Xiamen Island. Shanghai Environ. Monitoring. 1: 1-11.

（112）      Shaocai Yu*, 1993. Investigation about the calculation method of average pH. Environ. Monitoring In China. 9(1): 28-29.

（113）      Shaocai Yu*, 1993. Determination of optional variance set on Xiamen acid precipitation by principle component analysis. Shanghai Environ. Monitoring. 3: 6-11.

（114）      Shaocai Yu*, Chen, Xiaojian., and Chen, Zemian., 1992. Organic acids in the oceanic acid rain of Xiamen Island. Shanghai Environ. Sci. 11(12): 30-32.

（115）      Shaocai Yu*, Chen, Zemian., Cai, Xiaoping., Chen Xiaojian, 1992. An investigation about chemical compositions of acid rain and their relationship with the meteorological conditions in Xiamen Island. Environ. Prot. Sci. 3: 68-73.

（116）      Shaocai Yu*, 1992. A review about the measurement methods of H₂O₂ in the atmosphere and precipitation. Environ. Monitoring In China. 8(4): 49-52.

（117）      Shaocai Yu*, Bi, Mutian., Lin, Xin., Yao, Rongkui., and Tang, Xiaoyan., 1991. Organic acids in precipitation from Baiyun Mountain, Guanzhou and in cloudwater from Miaoer Mountain, Guangxi. Acta Sci. Circumstantiae. 11(1): 25-30.

（118）      Shaocai Yu*, Bi, Mutian., and Lin, Xin., 1991. Determination of organic acids By IC with p-toluene sulfonic acid as eluant. Analytical. Chem. 19(1):73-76.

（119）      Shaocai Yu*, 1991. A review about the natural sources of precursors of acid rain. Shanghai Environ. Monitoring. 1:26-32.

（120）      Shaocai Yu*, Bi, Mutian, and Lin Xin., 1990. An investigation about the determination of formic and acetic acids in the atmosphere. Ch. J. Environ. Sci. 11(3): 43-48.

（121）      Shaocai Yu*, 1990. Preliminary study about the sources and causes of acid rain in Xiamen Island. Atmos. Environ. 5: 43-44. (in Chinese)

（122）      Shaocai Yu*, Bi, Mutian., and Lin, Xin., 1988. Preliminary investigation about natural sources of organic acids in the atmosphere and rain. Atmos. Environ. 4: 36-40 (in Chinese)

（123）      Shaocai Yu*, The energy at the deep ocean. New Energy, 8(9): 34, 1986 (in Chinese).

（124）      Shaocai Yu*, 1987. The global natural sources of precursor NOx of acid rain: a review. Environ. Prot. Sci. 2: 8-13 (in Chinese).